壓縮包內含有CAD圖紙和說明書,均可直接下載獲得文件，所見所得，電腦查看更方便。Q 197216396 或 11970985

Positioning plate stamping mould design This design is the design of the punching blanking composite mold, using the basic knowledge of stamping forming technology and die design, the figure for stamping die mold process of a given analysis, size calculation, data access, so as to design the mold. Common cold stamping mould design is according to the size of the design components, materials, such as mass production process step by step analysis to determine the blanking process design and die structure, and then through the process design and calculation, calculation of impact force and pressure center, primary press die set and standards.This design introduced the die design of the layout and the way feeding and discharging and orientation, calculate the convex and concave die cutting edge dimension and tolerance, finally chooses parts design, check and draw the mold assembly drawing.And some of the components are selected according to the standard, there is no further design.This design through the analysis of the process, considering the economy, parts stamping manufacturability as well as the complexity and precision on the basis of many factors, such as finishing. Positioning plate material is Q235 plain carbon steel, the thickness of 0.5 mm, mass production.First, the structure analysis was carried out on the workpiece, the cutting process analysis, demonstration, carries on the overall structure design of mould scheme, the main pieces of process planning, must process calculation, manufacturing, and certain technical and economic analysis, etc.Then, the design and the main parts of the die, and draw the working parts of general assembly drawing and part drawing. The blanking pieces of material is Q235 plain carbon steel, its mechanical performance is good, meet the use requirement, at the same time also has a good stamping performance, suitable for positioning plate blanking.This design adopts the punching, blanking compound stamping with composite mold production.Flip chip type compound die structure is simple, can be directly used to press a lever device to push unloading.And so it is easy to operate security, can guarantee high productivity.And formechanization provides favorable conditions, So the application is very extensive.And suit type composite structure is relatively complex, the safety coefficient is low, be determined by the above analysis of the parts production using inversion type composite mold production. Positioning of progressive die parts are used to ensure the correct article material sent to and the right location in the mould. Because the guide pin and pin structure is simple, convenient.And the mould adopts the article is expected, according to the mold concrete structure both economic benefit, control stock into the direction of the guide pin, fixed pin block is adopted in the feeding interval. Discharge way, workpiece straightness is higher, the material thickness of 0.5 mm is relatively thin, unloading force is not big, because of the pressure unloading mold than rigid unloading mold is convenient, the operator can see the material in the mold to the dynamic, flexible and elastic unloading slabs workpiece clamp is, will not damage the surface, it can adopt flexible unloading. The purpose of ejecting from waste die.Down the agency called the push rod, usually in the upper die; By using inversion composite mold production, the elastic is adopted on the parts. This design for selection of stamping equipment is open press the transverse feeding way is adopted, namely feeding from right to left.The side guide column formwork.Due to the front and around is not restricted, feeding and operation more convenient.And cannot use a floating die handle. The use have waste, layout, blanking pieces according to the layout method of the calculation of material utilization, cross cutting, longitudinal cutting sheet metal utilization rate is 70%, and so the longitudinal cutting, cross cutting way of layout are available Blanking force is in the process of blanking punch of sheet metal pressure, it is with the punch into the depth of the material.Usually said the blanking force refers to the maximum cutting force, it is one of the important basis for choose press and mould design.So you need to calculate the cutting force, discharge power, punching force, to determine the total pressure of a force.By querying the appendix: open type tilting press parameter table.Therefore, the primary press for: J23 series open-type inclinable press J23-4. Working parts of blade size calculated this design USES the convex and concave mold processing.? Design of concave and convex die parts appearance is relatively simple, and consider the processing according to actual condition, in order to meet the intensive strength and rigidity, intensive design into step, make assembly mould is convenient. The design of the blanking die, die structure form is more, according to the shape can be divided into standard round concave die and tabular concave die, according to the structure is divided into integral type, insert or spell and combined.Also has the form of the blade flat blade and oblique blade.Generally use the integral and more set spell type, according to parts for a variety of geometric shapes, integral is applicable to small, convex and concave die set spell combined is mainly used for large convex and concave die.According to above analysis should use monolithic, all kinds of die of the concave die adopt wedm machining, arrange the location of the concave die in the die frame, according to the calculation of pressure center data, the pressure center and mold the handle.According to the actual production needs, the use of shape for the rectangular plate die.Concave mold adopts the whole die, outline all adopt CNC wedm can be a forming, the location of the installation of concave die in the die frame, in accordance with the data of pressure center, try to keep the pressure center and mold the handle.Calculate the size of the contour.There are three kinds of die the fixed way: the first is a hot and cold;The second is the low melting point alloy, epoxy resin casting and inorganic adhesive;The third is the screw fastening, pin location.Using the first don't drag, it is mainly used for cold extrusion of prestressed die.In the second, the fastening force is small, do not drag.Using a third, fastening force big, reliable positioning, strong commonality, easy installation and is suitable for various kinds of mold used, to ensure that the screw hole between, between the screw hole and pin hole and screw hole or pin hole and concave die cannot too close to the distance between the edge, otherwise it will affect the service life of mould.According to above analysis should use screw fastening, pin location. Die with rectangular slab structure and directly through the screw, pin and the mold base is fixed on the fixed way.For salt pieces in mass production, considering the die wear and guarantee the quality of stamping, die blade, blade adopts straight cylindrical blade intensity is higher, the form after grinding blade size constant, used for blanking shape or high precision parts. The design of the punch punch, punch length according to the specific structure of the mould, and fixed length according to wear plate, stripper plate thickness to decide. The design of other parts due to large rubber allowed to carry the load, convenient installation, it is common in blanking die elastic element. For discharge in the blanking of polyurethane rubber and synthetic rubber, rubber with excellent performance than synthetic rubber, polyurethane rubber so using polyurethane rubber, the shape of cylindrical rubber. The purpose of design discharge part is after cutting clamp on the punch or on intensive parts or removing waste, are: the most common ways of discharging rigid discharge, pressure stripper plate.This design adopts the pressure discharge device, its are basic parts is a stripper plate, discharging screw and elastic element (spring or rubber) The distance between holes and hole not too close, this will affect the service life of mould, and affect the stiffness and strength.Installation plate must consider when between holes and hole edge. Is the role of fixed plate punch (intensive) fixed position on the mold base is correct, the fixed plate is rectangular or circular plate, a fixed plate with the punch (intensive) for the H7 / h6 cooperate, after installation, punch (intensive) shall be end face grinding flat with the fixed plate. The function of upper and lower mold base is directly or indirectly, to install all parts of progressive die, and respectively connected to the press slide block and the table, to transfer pressure.Therefore, the strength and stiffness of the upper and lower die shoe is the major consideration.Mold base due to insufficient strength will produce damage, if the stiffness is insufficient, work would produce large elastic deformation, lead to the working parts of the mold and the guide parts rapid wear. Guide pillar and guide sleeve structure and size are generally not directly by the selected from the standard, in the length of the column should be selected to ensure that die at the end of the job position, guide pin end face and the mold base on the top surface distance of not less than 10 ~ 15 mm.Working in the highest position, guide pin on the end face with the distance of not less than the lower end of the guide sleeve (10 ~ 20) mm, with precision of the guide pin and guide bush by table found to choose class II. In the small die mold is generally on the die will handle is fixed on the press ram.The handle mould is as upper die parts connected to the press ram.For it is the basic requirement of: die and press the slider on the handle from a hole, right installation and reliable;Second, we must to die on the correct and reliable connection. Two guide pin is located in the same side, strip along the two guide pin straight sent to determine and feeding from right to left, the guide pin on the back;Feed back once upon a time, the guide pin is installed on the left side.By blocking pin to control the feeding interval, in the upper die setting corresponding pilot hole, fixed to the concave in the template. Stripper plate set up 4 discharge screw, the nominal diameter of 10 mm, threaded portion of the M8 x 8 mm.Discharge screw tail should leave enough space schedule and after discharging screw, should make the stripper plate is beyond punch face 1 mm, when there is error with screw mounting pads to adjust between the stripper plate. Using a pin block installed on the die.Check standard JB/T7649.10-1994, selection of radius of 4 mm pin, beginning with the retaining pin the diameter of the fixed part and working part of the difference is very big, not weaken the strength of the die, and the manufacture is simple, easy to use. Press check, according to the mould height, choose to press.Make the mould height is less than the selected press shut height. Through the design, learn a lot from it not previously learned knowledge, the future will be more efforts to learn knowledge well, and work to lay a solid foundation for future employment. 定位板沖壓模具設計 本設計是沖裁復合模具的設計，利用沖壓成形工藝和模具設計的基本知識，對沖裁模具的模具工藝過程進行給定分析、尺寸計算、數(shù)據(jù)存取，從而進行模具設計。 常用冷沖壓模具的設計是根據(jù)零件尺寸、材料等批量生產(chǎn)過程逐步分析確定沖裁工藝設計和模具結構，然后通過工藝設計和計算，計算沖擊力和壓力機。本設計主要介紹了模具的布局設計、進給方式、排料方式、定位方法，計算了凸凹模的切削刃尺寸和公差，最后選擇零件設計，檢查并繪制了模具裝配圖。本設計通過工藝分析，在綜合考慮經(jīng)濟性、零件沖壓可制造性以及復雜性、精度等諸多因素的基礎上，對零件進行精加工。 定位板材料為Q235普通碳素鋼，厚度0.5mm，批量生產(chǎn)。首先，對工件進行結構分析，對切削過程進行分析、論證，進行模具總體結構設計方案，對主要零件進行工藝規(guī)劃。必須進行工藝計算、制造和一定的技術經(jīng)濟分析等。然后，對模具的設計和主要零件進行制圖，并繪制出工作零件的總裝配圖和零件圖。 該沖裁件材料為Q235普通碳素鋼，其力學性能良好，滿足使用要求，同時具有良好的沖壓性能，適用于定位板沖裁。倒裝片式復合模結構簡單，可直接用于壓桿裝置推卸，操作方便，安全可靠，可保證高生產(chǎn)率。 因此應用非常廣泛，而適合型復合結構比較復雜，安全系數(shù)較低，通過以上分析確定采用倒置型復合模具生產(chǎn)的零部件。 級進模零件的定位用來確保正確的物品材料送到模具和正確的位置。 由于導銷和銷結構簡單，使用方便，模具采用本品，根據(jù)模具混凝土結構既經(jīng)濟效益，又控制庫存流向導銷，進料間隔采用固定銷塊。 出料方式，工件直線度較高，材料厚度為0.5mm比較薄，出料力不大，因為壓力卸料模具比剛性卸料模具方便，操作者可以看到模具內的材料向動態(tài)、柔性和彈性卸料。板坯工件夾持時，不會損壞表面，故可采用柔性卸料。 從廢模具中彈出的目的。下機構稱為推桿，通常在上模中； 通過倒裝復合模具生產(chǎn)，在零件上采用了彈性。 本設計選型沖壓設備為開式壓力機，采用橫向進給方式，即從右向左進給，側導柱模板，由于前后不受限制，進給和操作更加方便，而且不能使用浮動模柄。 使用有廢料、排樣、沖裁件的排樣方法按材料利用率計算，橫切、縱切板材利用率為70%，因此縱切、橫切排樣方式是可行的。 沖裁力是沖裁過程中金屬板材所承受的壓力，它是隨著沖裁力進入材料的深度，通常所說的沖裁力指的是最大切削力，它是選擇沖裁機及模具設計的重要依據(jù)之一。g力、卸料力、沖裁力，確定總壓力的一個力。通過查詢附錄：開式傾動壓力機參數(shù)表。因此，主壓機為：J23系列開式斜壓機J23-4。 工作部件的葉片尺寸計算本設計采用凸模和凹模加工。 凹凸模零件外觀設計相對簡單，并根據(jù)實際情況考慮加工，以滿足強度和剛度的強化，集約化設計成步驟，使裝配模具方便。 沖裁模的設計中，模具結構形式較多，根據(jù)形狀可分為標準圓形凹模和平面凹模。 開題報告 學生姓名 準考證號 專 業(yè) 數(shù)控加工與模具設計 指導教師 姓名 職 稱 所在院系 南京工程學院 課題來源 自擬題目 課題性質 工程設計 課題名稱 定位板沖壓模設計 畢業(yè)設計的內容和意義? 1．主要內容： （1）編寫模具技術要求、訂料表； （2）使用CAD軟件設計圖和若干零件圖的繪制。 （3）掌握沖壓的使用性能和用途。完成與模具相關資料的外文翻譯。 （4）掌握模具的使用情況，了解企業(yè)的模具設計流程和制造情況。掌握新軟件使用和模具加工的新工藝。 （5）利用模具分析進行模具設計，優(yōu)化模具設計結構。 2．畢業(yè)設計的意義： 沖壓模具是工業(yè)產(chǎn)品生產(chǎn)用的重要工藝裝備，在現(xiàn)代工業(yè)生產(chǎn)中，60%～90%的工業(yè)產(chǎn)品需要使用模具，模具工業(yè)已成為工業(yè)發(fā)展的基礎，許多新產(chǎn)品的開發(fā)和研制在很大程度上都依賴于模具生產(chǎn)，特別是汽車、摩托車、輕工、電子、航空等行業(yè)尤為突出。目前，塑料制件在工業(yè)、日常生活各領域幾乎無處不在，所以掌握模具設計這一門技巧對于未來從事相關行業(yè)的發(fā)展極其重要。在本課題的設計過程中，我將模具設計采用傳統(tǒng)設計加軟件設計相結合。本設計開始采用傳統(tǒng)設計方法對相關參數(shù)進行計算、初步選擇沖壓設備、模架，再依照零件件的實際情況，進行結構設計。同時，在設計過程中，通過查閱大量資料、手冊、標準、期刊等，以及結合教材上的知識對沖壓模具的組成結構、沖裁工藝力、排樣設計、壓力中心、壓力機的選擇有了系統(tǒng)的認識，拓寬了視野，豐富了知識，為將來獨立完成模具設計積累了一定的經(jīng)驗。 通過本次畢業(yè)設計，可以使我鍛煉和培養(yǎng)以下基本能力： ① 一般沖壓模設計的基本能力； ② 沖壓模所要注意的工藝分析及模具結構的選擇； ③ 沖壓模的質量分析及工藝改進、模具結構改進設計的能力； ④ 了解模具設計的常用商業(yè)軟件以及同實際設計的結合。 另外，本次模具設計還鍛煉了我使用AUTOCAD繪圖軟件的技巧，使我在模具的結構設計、工藝分析、模具零件的選材、熱處理、沖壓模具零件的制造以及資料檢索、英文翻譯等方面獲得綜合訓練，為未來工作適應期奠定堅實的基礎。 文獻綜述 一、我國沖壓模具工業(yè)的發(fā)展現(xiàn)狀 模具是制造業(yè)的重要基礎工藝裝備，工業(yè)產(chǎn)品大批量生產(chǎn)和新產(chǎn)品開發(fā)都離不開模具，用模具生產(chǎn)制件所達到的(四高二低)高精度，高復雜程度，高一致性，高生產(chǎn)率和低耗能、低耗材，使模具工業(yè)在制造業(yè)中的地位越來越重要。模具品種繁多，共有10大類，包括沖壓、塑料、橡膠、鑄造、鍛壓等，用于制造業(yè)中幾乎所有產(chǎn)品的生產(chǎn)，可見模具的服務范圍已包括國民經(jīng)濟的許多方面，現(xiàn)在模具技術已成為衡量一個國家產(chǎn)品制造水平的重要標志之一，沒有高水平的模具就沒有高水平的產(chǎn)品已成為共識。 隨著產(chǎn)品更新?lián)Q代越來越快，新產(chǎn)品不斷涌現(xiàn)。新技術日新月異，模具的使用范圍已越來越廣，對模具的要求也越來越高了。 (1)模具產(chǎn)品將向著更大型、更精密、更復雜及更經(jīng)濟快速方向發(fā)展；模具生產(chǎn)將朝著信息化、無圖化、精細化、自動化方向發(fā)展；模具企業(yè)將向著技術集成化、設備精良化、產(chǎn)品品牌化、管理信息化、經(jīng)營國際化方向發(fā)展。 (2)模具CAD／CAE／CAM／PDM正向集成化、三維化、智能化、網(wǎng)絡化和信息化方向發(fā)展。快捷高速的信息化時代將帶領模具行業(yè)進入新時代。 (3)模具的質量、周期、價格、服務四要素中，已有越來越多的用戶將周期放在首位，要求模具盡快交貨，因此模具生產(chǎn)周期將繼續(xù)不斷縮短。 (4)大力提高開發(fā)能力，將開發(fā)工作盡量往前推，直至介入到模具用戶的產(chǎn)品開發(fā)中去，甚至在尚無明確的用戶對象之前進行開發(fā)(這需要在有較大把握和敢冒一定風險的情況下進行)，變被動為主動。以及“你給我一個概念，我還你一個產(chǎn)品”的一站式服務模式都已成為發(fā)展趨勢。 (5)隨著模具企業(yè)設計和加工水平的提高，過去以鉗工為核心，大量依靠技藝的現(xiàn)象已有了很大變化。在某種意義上說： “模具是一種工藝品”的概念正在被“模具是一種高新技術工業(yè)產(chǎn)品”所替代，模具“上下模單配成套”的概念正在被 “只裝不配"的概念所替代。模具正從長期以來主要依靠技藝而變?yōu)榻窈笾饕揽考夹g。這不但是一種生產(chǎn)手段的改變，也是一種生產(chǎn)方式的改變，更是一種觀念的改變。這一趨向使得模具標準化程度不斷提高，模具精度越來越高，生產(chǎn)周期越來越短，鉗工比例越來越低，最終促使整個模具工業(yè)水平不斷提高。 (6)高速加工、復合加工、精益生產(chǎn)、敏捷制造及新材料、新工藝、新技術將不斷得到發(fā)展。 文獻綜述 二、研究的基本內容，擬解決的主要問題 我國沖壓模具行業(yè)與其發(fā)展需要和國外先進水平相比，主要存在六個方面的問題。 (1)發(fā)展不平衡，產(chǎn)品總體水平較低。雖然個別企業(yè)的產(chǎn)品己達到相當高的水平，個別企業(yè)的部分產(chǎn)品已達到或接近國際水平，但總體來看，模具的精度、表面粗糙度、生產(chǎn)周期、壽命等指標與國外先進水平相比尚有較大差距。包括生產(chǎn)方式和企業(yè)管理在內的總體水平與國外工業(yè)發(fā)達國家相比尚有10年以上的差距。 (2)工藝裝備落后，組織協(xié)調能力差。雖然部分企業(yè)經(jīng)過近幾年的技術改造，工藝裝備水平己比較先進，但大部分企業(yè)工藝裝備仍比較落后。更主要的是我們的企業(yè)組織協(xié)調能力差，難以很好整合或調動社會資源為我所用，從而就難以承接比較大的項目。 (3)大多數(shù)企業(yè)開發(fā)能力弱。一方面是技術人員比例低、水平不夠高，另一方面是科研開發(fā)投入少，更重要的是觀念落后，對開發(fā)不夠重視。 (4)管理落后更甚于技術落后。技術落后往往容易看到，管理落后有時卻難以意識到。國內外模具企業(yè)管理上的差距十分明顯，管理的差距所帶來的問題往往比技術上的差距更為嚴重。 (5)市場需求旺盛，生產(chǎn)發(fā)展一時還難以跟上，供需矛盾一時還難以解決，供不應求的局 面還將持續(xù)一段時間，特別是在中高檔產(chǎn)品方面矛盾更為突出。 (6)體制和人才問題的解決尚待時日。在社會主義市場經(jīng)濟中，在經(jīng)濟全球化的過程中，競爭性行業(yè)，特別是像模具這樣依賴于特殊用戶，需單件生產(chǎn)的行業(yè)，許多企業(yè)目前的體制和經(jīng)營機制仍舊很難適應多變的市場。人才的數(shù)量和素質水平也跟不上行業(yè)的快速發(fā)展。雖然各地都在努力解決這兩個問題，但要得到較好解決尚待時日。 展望未來，由于國際、國內宏觀環(huán)境總體良好，國內沖壓模具各主要用戶行業(yè)仍將持續(xù)以較快速度發(fā)展，塑料模具也必將持續(xù)高速發(fā)展。目前存在的主要問題通過國內外交流與合作，通過全行業(yè)的共同努力，通過各方面的共同支持，定會逐漸得到較好的解決。 文獻綜述 三、研究步驟、方法、工作進度 零件設計、工藝性分析、確定模具結構、沖裁工藝力的計算、壓力中心的確定、模具結構件設計、沖壓設備選擇、繪制模具設計圖紙。 1.零件設計，利用軟件AutoCAD進行設計并完成尺寸及公差等技術要求的標注，繪制模具圖。 2.沖壓設備選擇，確定的壓力公稱壓力，并計算沖裁力，通過公稱壓力的校核、滑塊行程次數(shù)的校核、模柄的校核、安裝部分的尺寸校核、閉合高度的校核結合沖壓設備的資料確定沖壓設備的型號。 3.模架，通過上、下模座的強度和剛度的考慮、定位導向部件、卸料推出機構等的初步估算，確定使用模架的型號。 4.對零件進行結構設計，計算出工作尺寸。 5.對沖裁力進行計算，進行凸凹模、落料凹模、沖孔凸模等的設計， 6.其他零部件的設計。 7.零部件加工工藝制定，結合現(xiàn)代加工手段，制定最符合經(jīng)濟效益的加工工藝。 8.完成整套模具的二維工程圖的繪制。 參考文獻 [1]傅建等. 模具制造工藝學[M]. 北京：機械工業(yè)出版社，2004. 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